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of multi-petawatt laser technologies. The primary objective of the project is to exploit the theory and large-scale numerical simulations to design a laser-based optical system capable of efficiently
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days of leave (based on a full-time contract). Selection process To apply, candidates are required to submit the following as a single PDF document comprising: Motivation letter (max. one page) CV (max
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in fluorescently labelled SecYEG complex reconstituted into model lipid systems. In the framework of the ITN project, Ph.D. student will undergo 2 secondments at Johannes Kepler University, Linz
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Central European Institute of Technology of Masaryk University (CEITEC MU) Brno, Czech Republic | www.ceitec.eu We are the Czech Republic’s flagship basic research institute based at Masaryk University. Our
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of complexity theory, systems thinking, and simulation modeling. • Stakeholder management, marketing strategies, and customer satisfaction modeling. • Both basic and applied research, including contract research
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the European Union. Job Description Researcher II will work in the Plasma Diagnostics and Modeling group. He/she will be primarily responsible for measurements using optical emission spectroscopy, mainly using streak
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European Structural Funds and recognised as a Key Technology Centre (KET) by the European Union. Job Description Researcher II will work in the Plasma Diagnostics and Modeling group. He/she will be primarily
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at industrial partners at TRL 6. Our objectives: Multiscale modelling to better understand RFB behavior and identify optimal hierarchical shaped pore- and electrode-structure to encounter optimum electrolyte as
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of multi-petawatt laser technologies. The primary objective of the project is to exploit the theory and large-scale numerical simulations to design a laser-based optical system capable of efficiently
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the development and systematic characterization of quantum devices based on novel triple-hybrid materials, which combine superconductivity, magnetism and semiconducting properties within a single in-situ grown